Illuminated interchangeable bezel assembly for a cellular telephone

ABSTRACT

This invention is a wireless communication device ( 100 ) including a first housing ( 220 ) with a housing support ( 250 ), a second housing ( 120 ) positioned about the housing support, or a portion thereof, so that the second housing may rotate around the housing support, and an interchangeable bezel ( 130 ) having input keys ( 132 ) and output functionality effectuated by light emitting diodes ( 136 ).

FIELD OF THE INVENTION

The present invention relates generally to the field of portable electronic devices and, more particularly, to an interchangeable bezel assembly for a wireless communication device having a unique form factor to facilitate its portability and maximize its functionality.

BACKGROUND OF THE INVENTION

Portable electronic devices have many functions and come in a variety of different form factors. To increase their appeal, manufacturers of such devices focus on minimizing their form factor and while maximizing their functions. The flip-type device has a collapsible form factor that is particularly popular among manufacturers of wireless communication devices, such as radiotelephones, paging devices, personal digital assistant and the combination of these devices. The flip-type device includes two sections connected by a hinge that flip open for general operation of the device and flip closed for convenient transport of the device. Many wireless communication devices having the collapsible form factor provide a display on an inner surface of the device so that it is exposed when the device is open and hidden when the device is closed.

Several wireless communication devices provide a viewable display when the devices are closed. As a result, a user may receive useful information, such as caller ID and time/date information, provided on the viewable display while the device is closed. One common type of wireless communication device provides a second display on the outer surface of the device. Another known type of wireless communication device provides an opening through one of the sections of the flip phone so that display on the inner surface of the device is exposed through the opening when the device is closed. Specifically, a first section of the device includes a display, and a second section of the device has two arms that attach to the first section with a large opening therebetween. Unfortunately, the arms of the open section tend to be unstable and fragile since the large opening between the two arms does not provide much support. Also, for both types of devices, the display is not conveniently viewable by the user when the device is transitioning from the closed position to the opened position and vice-versa.

Another type of wireless communication device with a collapsible form factor has two sections with inner surfaces that slide past each other to rotate open and slide together to rotate closed. For this configuration, the display is located on an outer surface of one section and is viewable by the user in both the opened and closed positions of the device. Unfortunately, if the display is considered to be right side up when the device is opened, the display is upside down when the device is closed due to the rotation of its corresponding section. Therefore, existing rotatable phones do not have conveniently viewable displays for both opened and closed positions.

For a rotatable wireless communication device with a collapsible form factor having a conveniently viewable display when the device is opened as well as closed may include an interchangeable bezel allowing a user to personalize its appearance. The interchangeable bezel may further include an input functionality such as menu selection buttons.

There is a need for an interchangeable bezel for a wireless communication device that enhances its appearance and further adds output functionality while maintaining backward compatibility.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a radiotelephone in a closed position;

FIG. 2 is a perspective view of the radiotelephone of FIG. 1 in an opened position as well as two alternative positions;

FIG. 3 is an exploded, perspective view of the radiotelephone of FIG. 1 viewed from the bottom down;

FIG. 4 is an exploded, perspective view of the radiotelephone of FIG. 1 viewed from the top down;

FIG. 5 is an exploded top view of a detailed structure of the bezel;

FIG. 6 is an exploded bottom view of a detailed structure of the bezel;

FIG. 7 is a bottom side view of the bezel assembly;

FIG. 8 is an exploded top view of the bezel and the radiotelephone; and

FIG. 9 is a block diagram of the internal, electronic components of the radiotelephone of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S)

The present invention is a wireless communication device including first and second housings, and a functional interchangeable bezel. The first housing includes a housing support capable of retaining a display. The second housing includes a circular portion positioned about a portion of the housing support, namely the support rim, and an extending portion extending away from the circular portion. The second housing, particularly the circular portion, is capable of rotating around the portion of the support rim of the housing support. The first and second housings have a closed position and one or more opened positions. In the closed position, the circular and extending portions of the second housing are adjacent to the first housing. In one or more opened positions, the circular portion is adjacent to the first housing and at least a portion of the extending portion is positioned away from the first housing.

Referring to FIG. 1, there is provided a collapsible radiotelephone 100 in a closed position 110. The radiotelephone 100 has wireless communication capabilities and, thus, may be used to communicate with wireless infrastructure, such as cellular base stations, regional and local wireless transponders, and wireless local area networks. The radiotelephone 100 described herein is a representation of the type of wireless communication device that may benefit from the present invention. However, it is to be understood that the present invention may be applied to any type of portable electronic device and is not limited to the following devices: radiotelephones, cordless phones, paging devices, personal digital assistants, portable computers, pen-based or keyboard-based handheld devices, remote control units, an audio player (such as an MP3 player) and the like. Accordingly, any reference herein to the radiotelephone 100 should also be considered to apply equally to other portable electronic devices.

For the preferred embodiment shown in FIG. 1, the radiotelephone 100 includes an upper housing 120 having a generally elongated and planar shape. The upper housing 120 has an upper circular portion 122 at one end and an upper extending portion 124 extending away from the upper circular portion. For this closed position 110, the upper circular portion 122 and the upper extending portion 124 are adjacent to a lower housing (shown in FIG. 2). Also, an external antenna 180 may be provided to enhance the wireless communication capabilities of the radiotelephone 100.

Components of the radiotelephone 100 are positioned near the upper circular portion 122 including an interchangeable bezel 130, a locking piece 140, and a display 150. The interchangeable bezel 130 has a ring-like shape that may be attached to, and detached from, the radiotelephone 100. Since the interchangeable bezel 130 may be easily attached and detached by a user without the need of tools, the user may select among interchangeable bezels of different colors to decorate the radiotelephone 100. In addition, the interchangeable bezel 130 may include bezel selection buttons 132 and/or indicator lights 136 to provide additional functionality to the radiotelephone 100. For example, the preferred embodiment provides three bezel selection keys 132: a left selection key, and right selection key and a menu key therebetween; and a plurality of light emitting diodes (“LEDs”) 136 as the indicator lights. The selection keys 132 may be used as an input mechanism such as, but not limited to, menu selection and scrolling. The indicator lights may be used as an output mechanism such as, but not limited to, an incoming call indicator, a volume indicator, and an alarm. The display 150 may be any type of output device that provides a convenient display of text and/or graphics to the user. Preferably, the display 150 is a liquid crystal display having a backlighting system to illuminate the display when lighting conditions are insufficient for proper viewing by the user. The locking piece 140 locks certain components of the radiotelephone 100 together, which is explained below. The locking piece 140 also functions as a display lens to protect the display 150 from undesirable, foreign matter.

The extended portion 124 of the upper housing 120 may include upper housing selection buttons 160 and speaker apertures 170. Although many different selection buttons may be provided on the upper housing 120, only one upper housing selection button 160 is shown in FIG. 1 by way of example. Thus, the upper housing 120 of the present invention may include one or more selection buttons (such as selection buttons 132 and 160) for various types of features including, but not limited to, volume control, menu control, call answering, call termination, caller identification, phone book control, voicemail control, e-mail/messaging control, network browsing, power on/off, and the like. The speaker apertures 170 direct sounds generated by an audio output device (shown in FIG. 9) to the user.

Referring to FIG. 2, the preferred embodiment of the radiotelephone 100 is shown in an opened position 210. The portions the radiotelephone 100 that become visible in the opened position 210 include a lower housing 220, a keypad 230 and a microphone aperture 240. When viewed from above, the lower housing of the preferred embodiment has a substantially similar profile to the upper housing 120. Similar to the upper housing 120, the lower housing includes a lower circular portion 222 and a lower extending portion 224. For this opened position 210, the upper circular portion 122 of the upper housing 120 is adjacent to, and positioned above, the lower circular portion of the lower housing 220. On the other hand, the upper extending portion 124 is positioned away from the lower housing. For example, as shown in FIG. 2, the upper extending portion 124 is positioned the opposite the lower extending portion 124 on opposite sides of the upper and lower circular portions 122 & 222. The keypad 230 may include any layout of keys that provide convenient operation of the radiotelephone 100 by the user. The microphone aperture 240 directs sounds received from the user or other local sounds to an audio input device (shown in FIG. 9).

The preferred embodiment includes a standard layout of alphanumeric and menu control for operation of the radiotelephone 100. As shown in FIG. 2, the keypad 230 includes twelve standard keys 232 (namely, 0 through 9, # and *) as well as three lower housing selection buttons 234. However, the radiotelephone 100 may include a larger grouping of keys, such as a QWERTY keyboard, if a device having a larger form factor or smaller individual keys is desired. Although not shown in FIG. 2, the keypad 230 may also include a cursor or graphical pointing device such as a joystick, touch pad or track ball. Also, similar to selection buttons 132 and 160 described, above, the lower housing selection buttons 234 may be used for various features including, but not limited to, volume control, menu control, call answering, call termination, caller identification, phone book control, voicemail control, e-mail/messaging control, network browsing, power on/off, and the like.

The position of the upper housing 120 is not restricted the opened position 210 and the closed position 110 described above. The upper extending portion 124 of the upper housing 120 has at least three functional positions about a housing support or bottom support (described below) of the lower housing 220. The preferred embodiment shown in FIG. 2 includes four functional positions, namely opened position 210, closed position 110, and auxiliary positions 260 & 270. Generally, the opened position 210 and the closed position 110 may activate functions of the radiotelephone 100 such as answering an incoming call and terminating an existing call. Each of the auxiliary positions 260 & 270 may also be set to activate a particular function of the radiotelephone 100. For example, auxiliary position 260 may operate to illuminate the display 150 (without answering an incoming call, if one exists), and auxiliary position 270 may operate to provide caller identification information about an incoming call that is not provided in the closed position 110.

Another function that may be activated by the functional positions of the upper extending portion 124 includes changing between different modes of operation for a multimode device. For example, the position of the upper extending portion 124 may determine whether the wireless communication device operates as a radiotelephone, a pager, a network browser, an e-mail device, a personal digital assistant, or an audio player.

Still another function that may be activated by the functional positions of the upper extending portion 124 includes scrolling through a predetermined selection of data shown on the display 150. For example, the upper extending portion 124 may be rotated to conveniently move up and down a list of contacts and/or phone numbers, or a listing of alphanumeric characters (i.e. “A” through “Z”, “a” through “z”, “0” through “9”, and any special characters). This feature may also be used to operate functions that are not necessarily shown on the display 150, such as volume control.

Regardless of the position of the upper housing 120 relative to the lower housing 220, the bezel selection buttons 132, upper housing selection button 160, and lower housing selection buttons 234 may operate independently or in cooperation. For example, the each of these selection buttons 132, 160 & 234 may activate a different function of the radiotelephone 100. Regarding the upper housing selection button 160, its function may change depending upon the position of the upper housing 120 relative to the lower housing 220. For the preferred embodiment, the upper housing selection button 160 and the middle button 236 of the lower housing selection buttons 234 operate cooperatively. In the closed position 110 shown in FIG. 1, the upper housing selection button 160 is a mechanical lever that physically contacts the surface of the middle button 236 when a user adjusts the upper housing selection button. In the opened position 210 (and the alternative positions 260 & 270), the upper housing selection button 160 does not have any function.

Referring to FIG. 3, the radiotelephone 100 of the preferred embodiment includes a top support 310 in addition to the lower housing 220, the upper housing 120, the locking piece 140 and the interchangeable bezel 130 described above in reference to FIGS. 1 and 2. In contrast to FIGS. 1 & 2, certain sections of the radiotelephone 100, such as an inner surface of the upper housing 120, an outer surface of the lower housing 220, the display 150 and other components within the upper and lower housings, are not shown in FIG. 3 to more easily view the relationship among the top support 310, the lower housing, the upper housing, the locking piece 140 and the interchangeable bezel 130. The lower housing 220 includes the lower circular portion 222 and the lower extending portion 224 (shown in FIG. 2). The lower circular portion 222 includes the housing support or bottom support 250 and the display 150 (shown in FIGS. 1 & 2).

The bottom support 250 includes a bottom support rim 324 having a circular shape and a bottom support base 326 to receive and support the display 150 (shown in FIGS. 1 & 2) such as a backlit liquid crystal display. The bottom support rim 324 defines a bottom support opening 328 to provide a viewing area of the display 150 to the user. The housing support or bottom support 250 may be an integrated component that is part of the lower housing 220 or a separable component that is positioned within the lower housing. As shown in FIG. 3, the bottom support 250 of the preferred embodiment is an integrated component that is part of an inside wall 320 of the lower housing 220. The bottom support 250 is integrated with one part of the lower housing 220 to retain the display 150 in that area of the lower housing. The other part of the lower housing 220 includes keypad apertures 322 to reveal user-accessible portions of the keypad 230.

The top support 310 mates with the bottom support 250 and maintains the upper housing 120 between the top and bottom supports. The top and bottom supports 310 & 250 are made of a rigid material, preferably a metallic material, to form a strong, inflexible coupling between the top and bottom supports. The top support 310 includes a top support base 312 and a top support rim 314 having a circular shape. The top support 310 is positioned over the upper housing 120 so that a lower surface of the top support base 312 is adjacent to an upper surface of the upper circular portion 122. Similarly, the bottom support 250 is positioned under the upper housing 120 so that an upper surface of the bottom support base 326 is adjacent to a lower surface of the upper circular portion 122. Also, the top support rim 314 is positioned around the bottom support rim 324 so that an inner surface of the top support rim is adjacent to an outer surface of the bottom support rim. The upper housing 120 is situated between the top support 310 and the bottom support 250 so that the inner surface of the upper circular portion 122 is adjacent to the outer surface of the top support rim 314. Accordingly, the upper circular portion 122 is capable of rotating about the top support rim 314 and the bottom support rim 324.

The top support rim 314 of the top support 310 defines a top support opening 316 to permit the user to see a viewing area of the display 150. The shape of the top support 310 may vary, but the top support rim 314 is preferably circular to provide a rotatable surface for the upper housing 120. Also, the top support opening 316 of the top support 310 preferably has a shape that does not obstruct the user's view of the display 150. Similarly, the upper housing 120 includes an upper housing opening 340 to permit the user to see a viewing area of the display 150 and, preferably, does not obstruct the user's view of the display.

As shown in FIG. 3, the locking piece 140 is positioned through the top support 310 and coupled to the bottom support 250 to prevent the top support from detaching from the bottom support. A more detailed explanation is provided below in reference to FIG. 4. Of course, as stated above, the locking piece 140 of the preferred embodiment also serves as the display lens to protect the display 150 from undesirable, foreign matter

The upper housing 120 may also include a detent assembly 330 to position the upper housing at various positions about the top and bottom supports 310 & 250. More specifically, the detent assembly 330 permits the upper extending portion 124 of the upper housing 120 to be positioned at various positions about the top support rim 314 and the bottom support rim 324. For the preferred embodiment, the detent assembly 330 includes a spring 332 and a follower 334 that are supported by the upper circular portion 122. The follower 334 is positioned in an aperture 336 through a sidewall of the upper circular portion 122 so that it protrudes passed the inner surface of the upper circular portion. The spring 332 flexibly supports the follower 334 at this position, so that the follower may mate with a slot 318 provided on the outer surface of the top support rim 314. In the alternative, the detent assembly 330 may include a one-piece spring having a projecting form that provides the functions of the spring 332 and the follower 334 of the preferred embodiment.

As shown in FIG. 3, the top support 310 may have a plurality of slots 318 and, likewise, the upper housing 120 may have a plurality of detent assemblies 330. This structure permits the radiotelephone 100, particularly, the upper extending portion 124 of the upper housing 120, to have at least three positions about the bottom support rim 324 of the lower housing 220, as explained above in reference to FIG. 2.

Referring to FIG. 4, the interlocking connection among the locking piece 140, the top support 310, and the bottom support 250 are represented. To assemble these components, the top support 310 is dropped onto the bottom support 250. The top support 310 includes one or more top support inner and outer anchors 410 & 412 (also shown in FIG. 3), and the bottom support 250 includes corresponding bottom support inner and outer grooves 420 & 422. Top support inner anchors 410 of the top support 310 are aligned with corresponding bottom support inner grooves 420 of the bottom support 250 and, similarly, top support outer anchors 412 of the top support are aligned with corresponding bottom support outer grooves 422 of the bottom support. Then, the top support 310 is rotated, as shown by direction 430, to lock the top support inner and outer anchors 410 & 412 into the bottom support inner & outer grooves 420 & 422. Finally, the locking piece 140 is dropped down to prevent the top support 310 from rotating back in a direction opposite the original direction 430. The locking piece 140 includes one or more locking piece feet 450 (also shown in FIG. 3) for mating with corresponding bottom support retaining areas 460 of the bottom support 250.

Referring again to FIG. 1 in conjunction with FIG. 4, the interchangeable bezel 130 may be attached to, and detached from, the radiotelephone 100 by a user without the need for tools. The interchangeable bezel 130 would have a ring-like shape that may enhance but, preferably, does not obstruct the user's view of the display 150. The interchangeable bezel 130 includes bezel anchors 490 that mate with corresponding top support grooves 470 of the top support 310. The top support 310 also includes projections 480 to provide tension against the inner surface of the interchangeable bezel 130 in order to retain the bezel anchors 490 in the top support grooves 470.

Although not shown in FIG. 4, the bezel selection buttons 132 of the preferred embodiment has electrical contacts that couple to corresponding electrical contacts of the top support 310. These corresponding electrical contacts of the top support 310 are coupled to electronic components, discussed below in reference to FIG. 9, supported in the lower housing 250 by a flex cable.

Referring to FIG. 5, an exploded top view of a detailed structure of the bezel 130 is illustrated. The bezel frame 134 includes a bezel channel 502 on the top surface of the bezel frame following the perimeter of the bezel frame. The bezel channel receives a flexible printed circuit board 504 having one or more light emitting diodes (LEDs) 136 populated on its top surface 506. On the bottom surface 508 of the flexible printed circuit board, a pogo-pin style compression connector 510 is provided to connect power to the LEDs. The flexible printed circuit board is secured onto the channel of the bezel frame by using means such as, but not limited to, pressure sensitive adhesive, and double-sided tape. The compression connector passes through an opening 512 in the bezel channel located on the bezel frame. A lightguide 138 is secured on the bezel frame over the flexible printed circuit board and the LEDs by using means such as, but not limited to, pressure sensitive adhesive, double-sided tape, and heat-stakes 512 passing through circuit board heat-stake pass-throughs 514 and bezel frame heat-stake pass-throughs 516. The lightguide may include individual pockets to receive each of the LEDs. FIG. 6 illustrates an exploded bottom view of a detailed structure of the bezel 130. The lightguide 138 is shown here with individual pockets 602 which receive the LEDs.

Referring to FIG. 7, a bottom side view of an assembled bezel structure is illustrated with a detailed view of the compression connector 510. The compression connector may include spring tabs 702 which lock the compression connector into place through the opening 512 and prevent the compression connector from forced out of the opening under the load of the compressed pogo pins 704. The compression connector makes it possible for the bezel 130 to be assembled into the upper housing 120 by allowing the bezel to be compressed into the appropriate slot, then to be rotated to meet the top support grooves 470. As the bezel is rotated while being compressed, the pogo pins 704 slide across the mating pads 802 shown in FIG. 8, and make appropriate contacts when the bezel assembly is completed. Once assembled, the pogo pins contact the mating pads 802 on the top support 310 which provide power and controlling signals to the LEDs on the flexible printed circuit board. The LEDs may be activated by the controlling signals to indicate a predetermined event or function such as, but not limited to, an incoming call indicator, volume level indicator, and alarm.

Because the interchangeable bezel disclosed (“new bezel”) utilizes the existing locking mechanism of the radiotelephone, the new bezel is backward compatible. Although the full functionality of the new bezel may not be fully utilized, the new bezel may be used with an older radiotelephone of this type. Further, an older interchangeable bezel (“old bezel”), which does not possess the functionality of the new bezel, may be placed on a new radiotelephone designed to utilize the functionality of the new bezel. Referring to FIG. 9, the electronic components 900 of the radiotelephone 100 are housed within the upper and lower housings 120 & 220. The electronic components 900 include a processor 910, a transceiver 920 and an antenna 930. For the preferred embodiment, the antenna 930 transmits radio frequency (“RF”) signals received from the transceiver 920 and provides RF signals to the transceiver that it receives. Likewise, the transceiver 920 converts controls signals received from the processor 910 for transmission by the antenna 930, and converts RF signal received by the antenna for processing by the processor. The processor 910 acts as a central processing unit for the radiotelephone 100 and coordinates the operations of the electronic components 900. The processor 910 also includes a memory portion 912 to store and retrieve data as well as perform various operations of the radiotelephone 100. However, it is to be understood that various functions described herein for the electronic components 900 may be integrated or segregated and, thus, the present invention is not limited to particular discrete components shown in FIG. 9. For example, the processor 910 and the transceiver 920 may be combined in a single integrated circuit, or the processor and the memory portion 912 may be separated to different components.

The electronic components 900 may also include an audio input 940, an audio output 950, a display 960 and input keys 970. For the preferred embodiment, the audio input 940 is a microphone that receives sounds through the microphone aperture 240 (shown in FIG. 2) and the audio output 950 is an earpiece that emits sounds through the speaker apertures 170 (shown in FIGS. 1 & 2). Also, for the preferred embodiment, the display 960 is a backlit, liquid crystal display that is shown in FIGS. 1 & 2 as display 150. The input keys 970 include internal keys 972 such as the keypad 230 (shown in FIG. 2) and external keys 974 such as the upper housing selection button 160 and the bezel selection buttons 132 (shown in FIGS. 1 & 2). The display 960 and the input keys 970 may also include connections to any indicator lights or selection buttons provided on the interchangeable bezel 130, as described above.

The electronic components 900 of the present invention further include at least one position sensor 980. For example, the position sensor 980 of the preferred embodiment is a Hall effect detector that includes a magnet mounted on the upper circular portion 122 of the upper housing 120 and a Hall effect switch mounted to the lower circular portion 222 of the lower housing 220. A single position sensor 980 is capable of detecting a particular position of the upper housing 120 relative to the lower housing 220. Therefore, a plurality of position sensors 980 may be positioned throughout the circular portions 122 & 222 of the upper and lower housings 120 & 220 to detect various positions of the upper housing relative to the lower housing, such as the closed position 110, an opened position 210, and additional positions (such as 260 & 270) about the housing support 250. The position sensor 980 is capable of determining a particular position of the upper housing 120 relative to the lower housing 220 and generating a response signal corresponding to the particular position. The processor 910 is then effective to activate a particular function of the radiotelephone 100 in response to the response signal when the upper housing 120 is positioned at one of the additional positions.

While the preferred embodiments of the invention have been illustrated and described, it is to be understood that the invention is not so limited. Numerous modifications, changes, variations, substitutions and equivalents will occur to those skilled in the art without departing from the spirit and scope of the present invention as defined by the appended claims. 

1. A wireless communication device comprising: a first housing; a second housing movably coupled to the first housing and being capable of rotating about at least a portion of the first housing; and an interchangeable bezel, attachable to the second housing, having a ring-like shape, the interchangeable bezel comprising a bezel frame having first surface for positioning adjacent to the second housing and a second surface for supporting a curved lightguide.
 2. The wireless communication device of claim 1, wherein the interchangeable bezel further comprises a plurality of light sources, supported at the second surface of the bezel frame, being effective to illuminate the curved lightguide.
 3. The wireless communication device of claim 2, wherein the interchangeable bezel further comprises a connector passing through the bezel frame to connect the plurality of light sources to a mating pad of the second housing.
 4. The wireless communication device of claim 1, wherein the interchangeable bezel further comprises at least one selection button supported by the second surface of the bezel frame; and the curved lightguide and the at least one selection button are positioned on the bezel frame to follow the ring-like shape of the interchangeable bezel.
 5. A wireless communication device comprising: a first housing; a second housing movably coupled to the first housing and being capable of rotating about at least a portion of the first housing, the second housing having a viewing area and a mating pad; and an interchangeable bezel attachable to the second housing, the interchangeable bezel comprising a bezel frame having a first surface for positioning adjacent to the second housing and a second surface for supporting an indicator light, and a connector passing through the bezel frame to connect the indicator light to the mating pad of the second housing. 